The employment direction of mathematics major mainly includes IT, Internet, artificial intelligence, financial industry, big data processing and analysis, business, enterprise management, and mathematics teaching in schools.

Mathematics majors include mathematics and applied mathematics, information and computing science and basic science of mathematics and physics. Mathematics, which originated in ancient Greece, is a subject that studies concepts such as quantity, structure, change and spatial model.

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Mathematics major aims to cultivate professionals who can master the basic theories, knowledge and methods of mathematics and applied mathematics science, and can use mathematical knowledge and use computers to solve some practical mathematical problems.

Students are required to systematically study the basic theories and methods of mathematics and applied mathematics, accept strict mathematical thinking training, and master the principles and application means of computers.

And through the course of educational theory and teaching practice, good teachers' quality is formed, and basic abilities such as mathematics teaching and mathematics education research, mathematics teaching research, mathematics science research and mathematics practical application are cultivated.

1, financial industry

Mathematics is widely used in the financial field. Mathematics graduates can engage in risk control, financial modeling, investment analysis and other aspects in banks, insurance companies, securities companies and other financial institutions.

They need to master advanced mathematics, statistics and computer science, and apply this knowledge to analyze and predict the financial market, thus helping companies to formulate investment strategies and risk management plans.

2. Statistics

Graduates majoring in mathematics can engage in statistics-related work, such as data analysis, market research, public opinion surveys and so on. They need to master the basic theories and methods of statistics, be able to process and analyze a large number of data, and extract useful information from them to provide decision support for enterprises and governments.

3. Computer science

Mathematics graduates can engage in software development, data mining, artificial intelligence and other aspects of computer science. They need to master the basic knowledge and programming skills of computer science, be able to transform mathematical models into computer programs and use computer technology to solve practical problems.

4. Education field

Mathematics majors can engage in teaching and research in the field of education. They can become math teachers in middle schools and universities, and they can also engage in math research and educational research in research institutions.

They need to master the basic theories and methods of mathematics and teach them to students. At the same time, they also need to constantly study the frontier problems in the field of mathematics.

5. Engineering field

Mathematics graduates can engage in modeling, simulation, optimization and other aspects of engineering. They need to master advanced knowledge of mathematics, physics and engineering, and can transform practical engineering problems into mathematical models, carry out mathematical analysis and optimization, and provide support for engineering design and development.